Sometimes, when I’m writing apply-style proofs, I have wanted a way to modify a proof method `foo`

to

Try

`foo`

on the first goal. If it solves the goal, good; if it does not solve it, revert to the original state and fail.

This came up in the following code:

```
qed (subst fibs.simps, (subst fib.simps)?, simp add: nth_zipWith nth_tail)+
```

After some change further up, the call to `simp`

would not fully solve a goal any more, and then this would loop. If I could have specified something like

```
qed (solve_goal(subst fibs.simps, (subst fib.simps)?, simp add: nth_zipWith nth_tail))+
```

or (alternative suggested synatx)

```
qed ((subst fibs.simps, (subst fib.simps)?, simp add: nth_zipWith nth_tail)!)+
```

or (maybe even nicer syntax)

```
qed ((subst fibs.simps, (subst fib.simps)?, simp add: nth_zipWith nth_tail)[1!])+
```

it would have stopped at the first goal that was not solvable by this script.

`fibs.simps`

or`fib.simps`

trigger the looping behaviour (maybe due to general left hand side and an if on the right hand side)? Often it is possible to replace these by conditional rules. – Lars Noschinski Mar 8 '13 at 9:42`qed`

;). I would always prefer to explicitly set-up another sub-proof inside the corresponding`proof`

/`qed`

. However, you are talking about`apply`

scripts and for them I completely agree. (Maybe you could turn the`qed`

in your example into an`apply`

?) – chris Mar 15 '13 at 5:58`proof`

created several goals, of which only one was non-trivial; that one was proven in proper isar. The others would be solved by`qed simp`

(would that be ok in your opinion?) if`fibs.simps`

did not loop. The monstrosity above was the closest to the conceptual`simp`

that I would have preferred. I could have used`apply_end`

, but I believe that is even less nice. – Joachim Breitner Mar 15 '13 at 22:23